The present invention relates to a flat metal aligning device used to align or center a flat metal, in particular a slab or a plate, entering a rolling stand of a rolling mill.
Currently, when feeding slabs or plates, the slab or plate may be not perfectly aligned when reaching the mouth of the rolling stand, in proximity of the working rollers. This drawback usually occurs in plate rolling mills. This drawback particularly occurs in case of short slabs, that is those slabs in which the width-to-length ratio is high in particular for low thickness magnitudes.
The traditional solution normally provides for the slab or plate to be pushed at a low speed, even lower than the rolling speed, towards the working rollers, which are normally arranged so that the gap between them is less than the rolling value required. The slab is pushed by the feeding rollers of the longitudinal feeding roller table towards the working rollers acting as true backstops. Once the slab has been aligned upon contacting the working rollers thus arranged, the movement of the feeding rollers is inverted and the slab is repositioned at a sufficient distance to be accelerated in the following step of inserting the same between the working rollers, in order to perform the rolling operation. Indeed, at the same time the working rollers are spaced apart so as to obtain a residual gap therebetween, which is equal to the value required by the rolling pass.
However, this traditional solution has the following disadvantages:
Moreover, if the short slabs may not be fed by the motorized rollers at the stand inlet due to their short length and to possible bulging, the operation of centering the slabs entering the stand is quite problematic.
Thus the need is felt to provide a slab aligning device which allows to overcome the aforesaid drawbacks.
It is the primary object of the present invention to provide a flat metal aligning device which allows the flat metals, such as slabs or plates, entering a rolling stand of a rolling mill to be effectively aligned or centered, thus avoiding potential damages to the working rollers while reducing the production times of the rolled products.
It is a further object of the invention to feed the rolling stand with short flat metals when they may not be fed by the motorized rollers at the stand inlet, due to their short length and to bulging in the flat metal itself.
Therefore, the present invention suggests to achieve the above-discussed objects by providing a flat metal aligning device for aligning a flat metal entering a rolling stand, the device being adapted to cooperate with a longitudinal roller table underneath which allows the flat metal to be fed towards said rolling stand, said device comprising in accordance with claim 1:
A second aspect of the present invention provides a process of aligning flat metals entering a rolling stand, by means of the aforesaid device, the process comprising the following steps in accordance with claim 12:
The device and process of the invention advantageously involve a series of advantages as compared to the traditional solution of the state of the art, in particular:
The dependent claims describe preferred embodiments of the invention.
Further features and advantages of the invention will be more apparent in light of the detailed description of a preferred, but not exclusive, embodiment of a slab aligning device, shown by way of non-limiting example, with the aid of the accompanying drawings in which:
The same reference numbers in the figures identify the same elements or components.
With reference to the figures, a first embodiment is shown of a slab aligning device, indicated by reference numeral 21 as a whole, for aligning the slabs entering a rolling stand of a rolling mill. The description of this device applies also to the case of alignment of plates.
Aligning a slab entering a rolling stand means placing the slab with its own longitudinal axis orthogonally to the axes of the working rollers of the rolling stand.
Thereby, when the slab is entering the stand, i.e when the slab is in contact with the working rollers, said front edge of the slab is ensured to be lying on the same plane in which the axes of both the working rollers of the stand lie.
In the case of a square or rectangular slab, aligning a slab entering a rolling stand coincides with aligning an axis of the slab with the rolling axis X.
A longitudinal roller table 20, conveniently motorized and comprising feeding rollers 11, allows slab 1 to be fed towards the rolling stand provided (in the configuration in
The slab aligning device object of the present invention is arranged over the longitudinal roller table 20 and comprises:
A preferred variation, shown in
Alternatively to the hydraulic cylinders, first and second actuating means may comprise pneumatic cylinders, pinion-rack systems or mechanical lever systems, etc., for example.
By actuating said second hydraulic cylinders 5, a shift may be made from a resting position (left-hand in
Feeding rollers 10 are provided in proximity of the rolling stand 22 which lead the slab 1 pushed by pushers 4 towards the inlet between the working rollers 2.
The position of the side centering guides 7, which are provided with the respective pusher assembly, is not advantageously stationary over time but it may vary according to the width of the slab to be processed. Handling means 13 are indeed provided to move the side centering guides 7 transversally with respect to the longitudinal feeding axis or rolling axis X, so as to conveniently adjust the distance between the two centering guides 7 to center a slab of predetermined width.
With reference to the left part in
Alternatively, the roller table 20 may comprise, for example:
The centering guides 7 are positioned on the roller table 20 by means of handling means 13, at such a distance to allow the slab 1 being fed to be centered.
When slab 1 is about to leave the section of roller table 20 between said centering guides 7, the second hydraulic cylinders 5 are actuated to rotate the so-called pusher assembly downwards (right-hand in
At this point, the first hydraulic cylinders 6 are actuated thus allowing pushers 4, connected to the rod of the respective cylinder 6 or defining the rod of the respective cylinder 6, for example, to perfectly align slab 1 by pushing it towards the feeding rollers 10 before the slab itself is engaged by the working rollers 2.
Linear transducers 8 are used to better control the two hydraulic cylinders 6 which may thus be actuated and controlled independently from each other.
Once slab 1 has been aligned and then starts to be rolled through the working rollers 2, pushers 4 are moved back to their retracted position, by means of the respective first hydraulic cylinders 6, and the second hydraulic cylinders 5 are actuated to rotate the pusher assembly upwards (left-hand in
Therefore, the device according to the invention avoids the front hem of the slab from arriving not perfectly aligned with respect to the axis of the working rollers at the inlet below the working rollers 2 when feeding the slabs (even short slabs in which the width-to-length ratio is high), thus allowing an improved processing, fewer production rejects and less damage to the working rollers.
Number | Date | Country | Kind |
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MI 2010 A 000771 | May 2010 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2011/056937 | 5/2/2011 | WO | 00 | 10/30/2012 |